Suckling, Feeding, and Swallowing: Behaviors, Circuits, and Targets for Neurodevelopmental Pathology

Maynard, Thomas M.; Zohn, Irene E.; Moody, Sally A.; LaMantia, Anthony S.

doi:10.1146/annurev-neuro-100419-100636

Cited by 33 publications

(41 citation statements)

References 154 publications

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“…Distal md fascicles divide into progressively smaller fascicles as this CN V branch extends ventrolaterally into Ba1B. As shown previously ( 3 , 6 , 8 ) in LgDel +/− embryos ( Fig. 1B1 ) with a deletion of 28 contiguous 22q11.2 gene orthologues parallel to the minimal critical 22q11.2 deletion in humans ( 4 ), RA-regulated gene expression expands into r2–3 ( Fig.…”

Section: Resultssupporting

confidence: 72%

“…We previously defined a partially penetrant gross CN V phenotype in LgDel +/− E10.5 embryos that is apparently related to an expansion of RA-dependent gene expression seen in the anterior hindbrain at E9.5 ( 6 , 8 ). To improve the resolution of these previous analyses, we used immunofluorescent anti-βIII-tubulin labeling ( 3 ) as well as confocal microscopy in whole E10.5 embryos to better resolve the organization and trajectories of peripheral CN V axon fascicles. We note that the changes we summarize here for each genotype are also seen, albeit less clearly, in multiple additional samples of chromogenically labeled, conventionally imaged whole embryo preparations ( 3 , 6 , 8 ; Supplementary Material, Fig.…”

Section: Resultsmentioning

confidence: 99%

“…We showed previously that LgDel +/− pups have many features of dysphagia—S/F/S disruptions—seen in infants and toddlers with 22q11DS ( 5 , 6 ). The anatomical and behavioral changes are accompanied by additional changes in CNgV and craniofacial differentiation ( 3 , 57 ), as well as physiological and cellular changes in cranial motor neurons ( 58 ). We have identified an extremely early divergence in the developmental program that specifies optimal CN V differentiation.…”

Section: Discussionmentioning

confidence: 99%

“…Second, detecting changes in initial differentiation of individual neurons remain elusive—especially in early to mid-gestation embryos due to their small size and rapid rate of growth. We addressed these challenges by identifying early divergence of axon growth in a key component—the trigeminal nerve of the developing neural circuit for a well-defined innate behavior, suckling, feeding and swallowing ( 3 ) in the genomically accurate LgDel +/− mouse model of DiGeorge/22q11.2 Deletion Syndrome ( 1 , 4 ), which in humans includes a high frequency of clinically significant disruptions of S/F/S from birth onward ( 3 , 5 ).…”

Section: Introductionmentioning

confidence: 99%

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Aberrant early growth of individual trigeminal sensory and motor axons in a series of mouse genetic models of 22q11.2 deletion syndrome

Motahari

Maynard

Popratiloff

et al. 2020

Human Molecular Genetics

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We identified divergent modes of initial axon growth that prefigure disrupted differentiation of the trigeminal nerve (CN V), a cranial nerve essential for suckling, feeding and swallowing (S/F/S), a key innate behavior compromised in multiple genetic developmental disorders including DiGeorge/22q11.2 Deletion Syndrome (22q11.2 DS). We combined rapid in vivo labeling of single CN V axons in LgDel+/− mouse embryos, a genomically accurate 22q11.2DS model, and 3-dimensional imaging to identify and quantify phenotypes that could not be resolved using existing methods. We assessed these phenotypes in three 22q11.2-related genotypes to determine whether individual CN V motor and sensory axons wander, branch and sprout aberrantly in register with altered anterior–posterior hindbrain patterning and gross morphological disruption of CN V seen in LgDel+/−. In the additional 22q11.2-related genotypes: Tbx1+/−, Ranbp1−/−, Ranbp1+/−, and LgDel+/−:Raldh2+/−; axon phenotypes are seen when hindbrain patterning and CN V gross morphology is altered, but not when it is normal or restored toward WT. This disordered growth of CN V sensory and motor axons, whose appropriate targeting is critical for optimal S/F/S, may be an early, critical determinant of imprecise innervation leading to inefficient oropharyngeal function associated with 22q11.2 deletion from birth onward.

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Section: Resultssupporting

confidence: 72%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Aberrant early growth of individual trigeminal sensory and motor axons in a series of mouse genetic models of 22q11.2 deletion syndrome

Motahari

Maynard

Popratiloff

et al. 2020

Human Molecular Genetics

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“…Feeding and swallowing requires coordination of the oral cavity, pharynx and esophagus to move a liquid or solid bolus toward the stomach (Maynard, Zohn, Moody, & LaMantia, 2020). Coordination of swallowing requires successive recruitment and then subsequent inhibition of sensory and motor branches of cranial nerves that connect more than 25 oral, facial, and pharyngeal muscles with swallowing centers in the hindbrain (Matsuo & Palmer, 2008).…”

Section: Introductionmentioning

confidence: 99%

Variations in maternal vitamin A intake modifies phenotypes in a mouse model of 22q11.2 deletion syndrome

Yitsege

Stokes

Sabatino

et al. 2020

Birth Defects Research

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Background: Vitamin A regulates patterning of the pharyngeal arches, cranial nerves, and hindbrain that are essential for feeding and swallowing. In the LgDel mouse model of 22q11.2 deletion syndrome (22q11DS), morphogenesis of multiple structures involved in feeding and swallowing are dysmorphic. We asked whether changes in maternal dietary Vitamin A intake can modify cranial nerve, hindbrain and pharyngeal arch artery development in the embryo as well as lung pathology that can be a sign of aspiration dysphagia in LgDel pups. Methods: Three defined amounts of vitamin A (4, 10, and 16 IU/g) were provided in the maternal diet. Cranial nerve, hindbrain and pharyngeal arch artery development was evaluated in embryos and inflammation in the lungs of pups to determine the impact of altering maternal diet on these phenotypes. Results: Reduced maternal vitamin A intake improved whereas increased intake exacerbated lung inflammation in LgDel pups. These changes were accompanied by increased incidence and/or severity of pharyngeal arch artery and cranial nerve V (CN V) abnormalities in LgDel embryos as well as altered expression of Cyp26b1 in the hindbrain. Conclusions: Our studies demonstrate that variations in maternal vitamin A intake can influence the incidence and severity of phenotypes in a mouse model 22q11.2 deletion syndrome.

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Localization of TRPV3/4 and PIEZO1/2 sensory receptors in murine and human larynges

Foote

Tibbetts

Bartley

et al. 2022

Laryngoscope Investig Oto

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Objective: The primary aim of this study was to identify expression of TRPV3 and TRPV4 chemoreceptors across perinatal and adult stages using a murine model with direct comparisons to human laryngeal mucosa. Our secondary aim was to establish novel cell expression patterns of mechanoreceptors PIEZO1 and PIEZO2 in human tissue samples.Study design: In vivo. Methods:We harvested murine laryngeal tissue to localize and describe TRPV3/4 endogenous protein expression patterns via immunofluorescence analyses across two developmental (E16.5, P0) and adult (6 weeks) timepoints. Additionally, we obtained a 60-year-old female larynx including the proximal trachea and esophagus to investigate TRPV3/4 and PIEZO1/2 protein expression patterns via immunofluorescence analyses for comparison to murine adult tissue.Results: Murine TRPV3/4 expression was noted at E16.5 with epithelial cell colocalization to supraglottic regions of the arytenoids, aryepiglottic folds and epiglottis through to birth (P0), extending to the adult timepoint. Human TRPV3/4 protein expression was most evident to epithelium of the arytenoid region, with additional expression of TRPV3 and TRPV4 to proximal esophageal and tracheal epithelium, respectively. Human PIEZO1 expression was selective to differentiated, stratified squamous epithelia of the true vocal fold and esophagus, while PIEZO2 expression exhibited selectivity for intermediate and respiratory epithelia of the false vocal fold, ventricles, subglottis, arytenoid, and trachea. Conclusion:Results exhibited expression of TRPV3/4 chemoreceptors in utero, suggesting their importance during fetal/neonatal stages. TRPV3/4 and PIEZO1/2 were noted to adult murine and human laryngeal epithelium. Data indicates conservation of chemosensory receptors across species given similar regional expression in both the murine and human larynx.

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Suckling, Feeding, and Swallowing: Behaviors, Circuits, and Targets for Neurodevelopmental Pathology

Cited by 33 publications

References 154 publications

Aberrant early growth of individual trigeminal sensory and motor axons in a series of mouse genetic models of 22q11.2 deletion syndrome

Aberrant early growth of individual trigeminal sensory and motor axons in a series of mouse genetic models of 22q11.2 deletion syndrome

Variations in maternal vitamin A intake modifies phenotypes in a mouse model of 22q11.2 deletion syndrome

Localization of TRPV3/4 and PIEZO1/2 sensory receptors in murine and human larynges

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